CN112957509A - Aroma device, aroma expansion control method, electronic equipment and aroma machine - Google Patents
Aroma device, aroma expansion control method, electronic equipment and aroma machine Download PDFInfo
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- CN112957509A CN112957509A CN202110382293.4A CN202110382293A CN112957509A CN 112957509 A CN112957509 A CN 112957509A CN 202110382293 A CN202110382293 A CN 202110382293A CN 112957509 A CN112957509 A CN 112957509A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L9/00—Disinfection, sterilisation or deodorisation of air
- A61L9/015—Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone
- A61L9/04—Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air without heating
- A61L9/12—Apparatus, e.g. holders, therefor
- A61L9/122—Apparatus, e.g. holders, therefor comprising a fan
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L9/00—Disinfection, sterilisation or deodorisation of air
- A61L9/015—Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone
- A61L9/04—Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air without heating
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- A61L2209/00—Aspects relating to disinfection, sterilisation or deodorisation of air
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2209/00—Aspects relating to disinfection, sterilisation or deodorisation of air
- A61L2209/10—Apparatus features
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Abstract
The invention relates to an aromatherapy device, an aroma expansion control method, electronic equipment and an aromatherapy machine, which are technically characterized by comprising the following steps of: the fragrance diffusion control method comprises a main control module and a plurality of fragrance units, wherein each fragrance unit is provided with a connecting piece for cascade connection, each fragrance unit is detachably and electrically connected with the main control module through the connecting piece, and meanwhile, the fragrance diffusion control method comprises the step of determining a fragrance diffusion mode; determining target aroma information based on the aroma expansion mode, wherein the target aroma information comprises the type and the volatilization rate of target aroma; controlling the aroma volatilization rate in aroma units associated with the types of the target aroma based on the target aroma information. The fragrance diffusing mode can be adjusted according to the environment in the space, the volatilization effect of the fragrance is improved, and meanwhile, the diversified demands of users on the fragrance are favorably met.
Description
Technical Field
The application relates to the technical field of fragrance diffusion, in particular to a fragrance diffusion device, a fragrance diffusion control method, electronic equipment and a fragrance diffuser.
Background
With the development of the times, the living quality of people is continuously improved, and the quality requirements of people on air in the space are also continuously improved, so that the aromatherapy is widely applied to the space environment.
In the related art of aromatherapy applications, it is most common that a single aromatherapy device contains only one kind of fragrance, or that a single aromatherapy device contains a plurality of kinds of fragrances but only one kind of fragrance is selected for diffusion. For example: the automobile is internally provided with the fragrance with the rose flavor or the lavender flavor, so that a delicate and pleasant atmosphere can be created in a narrow space in the automobile to keep drivers clear and calm.
However, the above prior art solutions have the following drawbacks: the users can not prepare the fragrance modes according to the demands of the users, and the diversified demands of the users on the fragrance in different environments are difficult to meet.
Disclosure of Invention
First aspect, in order to solve the problem that the user can't allocate the fragrance mode according to the demand of self, satisfy the user to the diversified demand of fragrance under different environment, this application provides an aroma device.
The utility model provides an aromatherapy device, includes host system and a plurality of aromatherapy unit, every the aromatherapy unit all is equipped with and is used for cascaded connecting piece, every the aromatherapy unit passes through the connecting piece with host system detachable electricity is connected.
Through adopting above-mentioned technical scheme, champignon unit is connected with host system detachable electricity to in the user changes champignon unit, and champignon unit's connection shell can cascade through the connecting piece, so that the user confirms the quantity of the champignon unit that needs the concatenation based on the demand of self from this, increases champignon device's application scope.
The present application may be further configured in a preferred example to: the champignon unit is including connecting casing, sub-accuse module and being used for ordering about the volatile fragrance diffuser of champignon, sub-accuse module passes through the connecting piece with master control module detachable electricity is connected, the fragrance diffuser sets up in the connecting casing, just the fragrance diffuser with sub-accuse module electric connection, the one end of connecting the casing is provided with the appearance chamber that is used for placing the champignon, the opposite side of connecting the casing is provided with the air inlet end, it is provided with the air-out side to connect the casing, the air-out side with the appearance chamber is linked together.
Through adopting above-mentioned technical scheme, install sub-accuse module in every connecting shell, sub-accuse module passes through the connecting piece and is connected with main control module detachable electricity to realize the work of sub-accuse module among the every champignon unit of main control module control, be convenient for simultaneously that the user changes or supplyes the champignon, sub-accuse module and diffuser electric connection, can the single control in this champignon unit diffuser work with sub-accuse module among the realization champignon unit.
The present application may be further configured in a preferred example to: the fragrance unit further comprises a container for placing fragrance, the container is detachably mounted on the connecting shell through the containing cavity, a plurality of air holes are formed in one side, facing the fragrance diffuser, of the container, and the container is communicated with the air outlet side of the connecting shell.
Through adopting above-mentioned technical scheme, the champignon unit is still including the container that is used for placing the champignon, and this container can dismantle with the connection casing through holding the chamber and be connected to in the user takes out the container and supply the champignon, the container is provided with the bleeder vent towards one side of expanding the fragrant ware simultaneously, realizes that the fragrance that expands in the fragrant ware ordered about the container volatilizees.
The present application may be further configured in a preferred example to: the sub-control module identifies the type of aroma in the container through an aroma detection component, the aroma detection component is installed in the container, and the aroma detection component is electrically connected with the sub-control module.
Through adopting above-mentioned technical scheme, champignon detection subassembly is used for discerning the kind of champignon, installs behind main control module when the champignon unit, main control module and sub-accuse module electric connection, and sub-accuse module can discern the kind information of champignon in the champignon unit that associates this moment to main control module can control the work of expanding fragrant ware through sub-accuse module, thereby realizes that main control module realizes adjusting the rate of volatilizing of the champignon of different kind information to the different control mode that sub-accuse module implemented in every champignon unit.
In order to adjust the fragrance expanding mode according to the environment in the space and enable the volatilization effect of the fragrance to be better, the requirement of a user on the fragrance is met, the application provides a fragrance expanding control method, and the following technical scheme is adopted:
an aroma diffusion control method based on the aroma device comprises the following steps:
determining a fragrance expansion mode;
determining target aroma information based on the aroma expansion mode, wherein the target aroma information comprises an aroma mode and a volatilization rate;
controlling the aroma volatilization rate in the aroma unit associated with the aroma mode based on the target aroma information.
Through adopting above-mentioned technical scheme, confirm target champignon information according to expanding fragrant mode, confirm the champignon kind information that needs and confirm the rate of volatilizing of target champignon from this, control the rate of volatilizing of the champignon in the champignon unit according to target champignon information again, the champignon of this application expands fragrant control method is convenient for the user and selects different kinds of fragrance according to the hobby of self to be favorable to promoting user experience.
The present application may be further configured in a preferred example to: the step of determining the fragrance spreading mode comprises the following steps:
receiving a fragrance pattern;
acquiring temperature and humidity information in a target space in real time, comparing the temperature and humidity information with reference temperature and humidity information and obtaining a temperature and humidity comparison result;
and determining a fragrance expansion mode based on the temperature and humidity comparison result and the fragrance mode.
Through adopting above-mentioned technical scheme, receive the fragrance mode earlier, the environmental information in the target space is acquireed in real time to the rethread, and compare this environmental information and benchmark environmental information and obtain the humiture contrast result, thereby can confirm the environmental aspect in the target space, confirm according to humiture contrast result and target champignon information again and expand the fragrance mode, realize adjusting the speed of volatilizing according to the environmental aspect in the current target space, be favorable to reducing the influence of environmental aspect to fragrance, thereby be favorable to promoting the volatile effect of champignon.
The present application may be further configured in a preferred example to: the step of obtaining temperature and humidity information in a target space in real time, comparing the temperature and humidity information with reference temperature and humidity information and obtaining a temperature and humidity comparison result comprises the following steps:
acquiring temperature information and humidity information in a target space in real time;
when the temperature information is compared with the reference temperature information to be high temperature and the humidity information is compared with the reference humidity information to be damp, obtaining a temperature and humidity comparison result to be high temperature and damp;
and when the temperature information is compared with the reference temperature information to be low temperature and the humidity information is compared with the reference humidity information to be dry, obtaining a temperature and humidity comparison result which is low-temperature drying.
By adopting the technical scheme, the temperature and the humidity in the target space influence the diffusion of the fragrance, so that the temperature information and the humidity information in the target space are collected before the fragrance spreading mode is determined, and the fragrance spreading mode can be adjusted according to the real-time temperature and humidity in the target space.
The present application may be further configured in a preferred example to: the step of determining the fragrance expansion mode based on the temperature and humidity comparison result comprises the following steps: when the temperature and humidity comparison result is high temperature and humidity, the fragrance diffusion mode is a low-volatility fragrance diffusion mode; and when the temperature and humidity comparison result is low-temperature drying, the fragrance diffusion mode is a high-volatility fragrance diffusion mode.
By adopting the technical scheme, when the diffusion rate of the target aroma is higher and the humidity is higher in a space environment with higher temperature, the retention time of molecules in the target aroma in the air is longer, so that the aroma diffusion effect of the aroma can be met by adopting a low-volatility aroma diffusion mode; when in the lower space environment of temperature, the rate of target champignon diffusion is less, and when in the comparatively dry space, the molecule among the target champignon dwell time in the air is shorter, from this it expands the fragrant mode and just can satisfy the demand of the fragrance diffusion of champignon to need highly volatilizing, to sum up, set up like this and can adjust the fragrant mode that expands of target champignon according to the different environmental conditions in the space to make the target champignon can produce effects such as releiving or excitation for the user effectively.
The present application may be further configured in a preferred example to: the step of controlling the aroma volatilization rate in the aroma unit corresponding to the aroma mode based on the target aroma information comprises the following steps:
when the volatilization rate of the target aroma is high, controlling the output power of an aroma diffuser in the aroma unit corresponding to the aroma mode to be high power; and when the volatilization rate of the target fragrance is a low volatilization rate, controlling the blowing power of a fragrance diffuser in the fragrance unit corresponding to the fragrance mode to be low power.
By adopting the technical scheme, under the condition that the fragrance diffuser adopts a blowing mode to volatilize the target fragrance, when the volatilization rate of the required target fragrance is high, the output power of the fragrance diffuser is increased so as to enable the target fragrance to volatilize more quickly; when the volatilization rate of the required target aroma is low, the output power of the aroma diffuser is reduced, so that the volatilization rate of the target aroma is lower.
The present application may be further configured in a preferred example to: the aroma diffusion control method further comprises the following steps:
acquiring residual information of target aroma in real time;
comparing the margin information of the target aroma with a margin threshold of the associated aroma;
when the residual amount information of the target aroma is larger than the residual amount threshold value of the associated aroma, sending residual amount normal information to a display terminal; and when the residual amount information of the target aroma is smaller than the residual amount threshold value of the associated aroma, sending residual amount abnormal information to a display terminal.
By adopting the technical scheme, the surplus of the target aromatherapy is collected in real time, so that the surplus of the target aromatherapy is monitored in real time, and when the surplus information of the target aromatherapy is smaller than the surplus threshold of the associated aromatherapy, the surplus abnormal information is sent to the display terminal, so that a user is reminded to replace or supplement the aromatherapy in time.
In a third aspect, the present application provides a computer-readable storage medium.
A computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the aroma diffusion control method according to the above-described aspect.
In a fourth aspect, the present application provides an electronic device.
An electronic device comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the processor executes the computer program to realize the steps of the fragrance diffusion control method according to the scheme.
In a fifth aspect, the application provides an aromatherapy machine, which adopts the following technical scheme:
an aromatherapy machine comprising: the device comprises a temperature detection device, a humidity detection device and the aromatherapy device according to the scheme;
the aromatherapy device is respectively connected with the temperature detection device and the humidity detection device.
To sum up, the application comprises the following beneficial technical effects:
the aromatherapy units are detachably and electrically connected with the main control module, so that a user can conveniently replace the aromatherapy units, the main control module can be used for adjusting the aromatherapy volatilization rates of at least two aromatherapy units, and the connection shells of the aromatherapy units can be cascaded through the connecting piece, so that the user can conveniently determine the number of the aromatherapy units to be spliced based on the self requirement, and the application range of the aromatherapy device is enlarged; the aromatherapy unit and the main control module are both in a modular structure and are convenient to carry; the target aroma information is determined according to the aroma expansion mode, the required aroma type information is determined and the volatilization rate of the target aroma is determined, and then the volatilization rate of the aroma in the aroma unit is controlled according to the target aroma information. Through the environmental information who acquires in the target space in real time to contrast this environmental information and benchmark environmental information and obtain the humiture contrast result, thereby can confirm the environmental aspect in the target space, confirm according to humiture contrast result and target champignon information again and expand fragrant mode, realize adjusting the speed of volatilizing according to the environmental aspect in the current target space, be favorable to reducing the influence of environmental aspect to fragrance, thereby be favorable to promoting the volatile effect of champignon.
Drawings
Fig. 1 is a schematic structural diagram of an aromatherapy device according to an embodiment of the present application.
Fig. 2 is a schematic diagram of the internal structure of the aromatherapy device when the top of the aromatherapy device is cut open in the application.
Figure 3 is a top view of the aromatherapy device, as seen in top section, of the device of the present application.
Fig. 4 is a schematic structural diagram of a plurality of fragrance units and a main control module when the fragrance units are spliced in the application.
Figure 5 is a side view of the fragrance unit as seen in side section through the fragrance unit of the present application.
Fig. 6 is a schematic view showing the fitting relationship of the container and the coupling housing in the present application.
Figure 7 is a schematic view of the construction of the sub-contacts of the fragrance box and the female contacts of the container in the present application.
Fig. 8 is a schematic structural diagram of a sub-contact of the fragrance box and a female contact of the container according to another embodiment of the present application.
Fig. 9 is a schematic structural diagram of a sub-contact of the fragrance box and a female contact of the container according to another embodiment of the present application.
Fig. 10 is a schematic structural diagram of a sub-contact of the fragrance box and a female contact of the container according to another embodiment of the present application.
Fig. 11 is a schematic flow chart of an aroma diffusion control method in an embodiment of the present application.
Fig. 12 is a block diagram of an electronic device according to an embodiment of the present application.
FIG. 13 is a block diagram of the aromatherapy machine in one embodiment of the present application.
In the figure, 10, an aromatherapy device; 1. a main control module; 101. a power supply battery; 2. an aromatherapy unit; 21. connecting the shell; 211. a top surface; 212. an air outlet; 213. a cavity; 22. a sub-control module; 23. a fragrance diffuser; 24. a panel; 241. an air inlet; 25. a female seat; 26. a sub-base; 27. a container; 271. air holes are formed; 28. a fragrance box; 31. sub-contacts numbered 0; 32. a subcontact numbered 1; 33. a subcontact numbered 2; 34. a subcontact numbered 3; 41. a female contact numbered 0; 42. a female contact numbered 1; 43. a female contact numbered 2; 44. a female contact numbered 3; 50. a temperature detection device; 60. a humidity detection device; 70. and displaying the terminal.
Detailed Description
The present application is described in further detail below with reference to figures 1-13.
The embodiment of the application discloses an aromatherapy device, which is shown in figures 1 and 2 and comprises a main control module 1 and an aromatherapy unit 2. Each fragrance unit 2 corresponds to a kind of fragrance. The fragrance unit 2 comprises a connecting shell 21, a sub-control module 22 and a fragrance diffuser 23. The connecting housing 21 may be a circular connecting housing, a rectangular connecting housing, or another connecting housing, and in this embodiment, the connecting housing 21 is rectangular. Sub-accuse module 22 fixed mounting is in connecting casing 21, expands fragrant ware 23 and sub-accuse module 22 electric connection, and the one end of connecting casing 21 is seted up and is used for placing the appearance chamber 213 of champignon, and the other end of connecting casing 21 is provided with the air inlet end. The main control module 1 is enclosed by a housing, which may be a circular housing, a rectangular housing or a housing with other shapes, and in this embodiment, the housing is preferably a rectangular housing. The main control module 1 comprises a main PCB board and a power supply battery 101, wherein the power supply battery 101 is used for supplying power to the main PCB board and the sub-control module 22. The power supply battery 101 may be a dry battery, a lithium battery, a solar battery, or the like. The shell of the main control module 1 is provided with a position avoiding opening (not shown in the figure), the shell of the main control module 1 is provided with a closing board (not shown in the figure) for closing the position avoiding opening, and a user can replace the power supply battery 101 by disassembling the closing board of the main control module 1. The housing of the main control module 1 is provided with a power switch (not shown in the figure) for controlling the operation of the main control module 1, and the power switch is electrically connected with the power supply battery 101. The shell of the main control module 1 is marked with power on and power off marks at the position of the power switch, and a user controls the main control module 1 to start or stop working by switching the power switch.
The main control module 1 can be in wireless connection with intelligent terminal equipment of a user, the terminal intelligent equipment can be a mobile phone, a tablet or a car center control, and the wireless connection mode can be in Bluetooth connection or in wifi connection. The intelligent terminal device can display the fragrance expansion mode, and the intelligent terminal device can provide fragrance expansion mode selection for a user. The main control module 1 is hardware capable of reading fragrance expansion mode information of the intelligent terminal device, storing fragrance type information functions and controlling the operation of the sub-control module 22, and in this embodiment, the main control module 1 is a single chip microcomputer with the model of STC89C58 RD. The main control module 1 stores information of a plurality of fragrance expansion modes, wherein the fragrance expansion modes comprise fragrance modes and volatilization rates of fragrance. The aroma pattern includes a variety of aroma, for example: an excitation mode (bergamot aroma and tea plant aroma matching), a relaxation mode (bergamot aroma and lavender aroma matching), and a deodorization mode (tea plant aroma). The volatilization rate of the aromatherapy comprises a high volatilization rate, a low volatilization rate and a normal volatilization rate.
The sub-control module 22 pre-stores the type information of various aromatherapy articles, and can identify the type information function of the aromatherapy articles and send the identified type information of the aromatherapy articles to the main control module 1. The sub-control module 22 may be a single chip microcomputer, or other hardware capable of controlling the operation of the fragrance diffuser 23, pre-storing the variety information of various fragrances, recognizing the variety information of various fragrances, and sending the variety information of fragrances to the main control module 1. In this embodiment, the sub-control module 22 is a single chip microcomputer, and the model of the single chip microcomputer is STC89C 52.
As shown in fig. 2 and 3, the sub-control module 22 is detachably and electrically connected to the main control module 1, and when the sub-control module 22 is electrically connected to the main control module 1, the main control module 1 can supply power to the fragrance unit 2 and control the fragrance volatilization rate of each fragrance unit 2.
Specifically, the connecting shell 21 of each aromatherapy unit 2 is provided with a connecting piece for cascading, in this embodiment, the connecting piece adopts a pair of magnetic connectors which are detachably and electrically connected to each other, and the magnetic connectors are used for supplying power and transmitting signals to the sub-control module 22. Specifically, the magnetic connector includes a female socket 25 and a sub-socket 26. The female block 25 is mounted on one side surface of the connection housing 21, and the female block 26 is mounted on the other side surface of the connection housing 21. The female socket 25 is electrically connected to the sub-control module 22, and the sub-socket 26 is electrically connected to the sub-control module 22. The side surface of the shell of the main control module 1 is also provided with a female seat 25 electrically connected with the main control module 1. The structure and application principle of the female seat 25 of the main control module 1 and the female seat 25 of the sub-control module 22 are the same.
Referring to fig. 3 and 4, when the female seat 25 of the main control module 1 is engaged with the sub-seat 26 of the fragrance unit 2, the main control module 1 supplies power and transmits signals to the sub-control module 22 associated with the fragrance unit 2. The parent seat 25 of the aromatherapy unit 2 electrically connected with the main control module 1 is electrically connected with the child seat 26 of another aromatherapy unit 2, so that the main control module 1 supplies power and transmits signals to the two aromatherapy units 2. In two adjacent fragrance unit 2, the female seat 25 of one fragrance unit 2 is electrically connected with the sub-seat 26 of the other fragrance unit 2, and so on.
In another embodiment, the connector may also be a PCB connector to detachably and electrically connect the sub-control module 22 and the main control module 1. The PCB board connector comprises a male connector and a female connector, the male connector is fixedly arranged on one side face of the connecting shell 21, the female connector is fixedly arranged on the other side face of the connecting shell 21, and the male connector and the female connector on the same connecting shell 21 are electrically connected with the sub-control module 22 in the connecting shell. The side surface of the shell of the main control module 1 is also provided with a female connector, the female connector is electrically connected with the main control module 1, and the female connector of the main control module 1 can be electrically connected with the male connector of the sub-control module 22. The aromatherapy unit 2 is detachably and electrically connected with the female connector of the main control module 1 by using the male connector of the connecting shell 21; in two adjacent champignon units 2, the female joint of the champignon unit 2 electrically connected with the main control module 1 is electrically connected with the male joint of another champignon unit 2, so that the main control module 1 supplies power and transmits signals for the champignon units 2.
In other embodiments, the connecting component may also adopt any hardware capable of realizing the separable electrical connection between the sub-control module 22 and the main control module 1 or between the sub-control module 22 and the sub-control module 22, and the hardware can realize that the main control module 1 supplies power and transmits signals to the plurality of fragrance unit 2.
The sub-base 26 of the connecting shell 21 is detachably and electrically connected with the main base 25 of the main control module 1, so that the sub-control module 22 is detachably and electrically connected with the main control module 1, meanwhile, the adjacent aroma units 2 are cascaded by using a connecting piece, the main control module 1 can be freely spliced with the aroma units 2, a user can conveniently splice the aroma units 2 corresponding to required aroma to the main control module 1 according to the self requirement, different aroma modes are formed by different aroma combinations, the user can conveniently customize the aroma according to the self requirement, and the application range of the aroma device 10 is favorably enlarged; and the main control module 1 and the aromatherapy unit 2 both adopt a modularized structure, so that the aromatherapy device 10 is convenient for a user to carry.
Referring to fig. 5 and 6, the panel 24 is installed at the air inlet end of the connection housing 21, the panel 24 is provided with an air inlet 241, and the air inlet 241 is long-strip-shaped, so that air outside the connection housing 21 can smoothly enter the connection housing 21. The connecting housing 21 is provided with an air outlet side, the air outlet side of the connecting housing 21 can be arranged on the side surface, the top surface 211 and the bottom surface of the connecting housing 21, and in order to enable the fragrance to be quickly emitted from the connecting housing 21, the air outlet side of the connecting housing 21 is arranged on the top surface 211 of the connecting housing 21. The air outlet side of the connecting housing 21 is located above the cavity 213, and the air outlet side of the connecting housing 21 is composed of a plurality of air outlet holes 212. When the aromatherapy is volatilized, the fragrance is emitted from the air outlet 212 of the connection housing 21.
Referring to fig. 5 and 6, the fragrance unit 2 further includes a container 27 for holding fragrance, and the container 27 is detachably mounted to the connection housing 21 through the receiving cavity 213. Specifically, the container 27 may be slidably connected with the cavity 213, so that the container 27 may be drawn out from the connecting housing 21, thereby facilitating the user to replace or supplement the aromatherapy. The top of the container 27 is open, and the top of the container 27 is communicated with the air outlet 212.
As shown in fig. 5 and fig. 6, the fragrance diffuser 23 is disposed on the sub-control module 22, in this embodiment, the fragrance diffuser 23 is a blower, the blower is fixedly disposed on the sub-control module 22, and the blower is electrically connected to the sub-control module 22, so that the sub-control module 22 can control the blower to operate. The air inlet side of the blower faces the air inlet 241 of the panel 24, the other side of the blower is the air outlet side, when the container 27 is installed in the accommodating cavity 213, the air outlet side of the blower faces the container 27, the container 27 faces the side wall of the fragrance expander 23 and is provided with a plurality of air holes 271, the arrangement enables air outside the connecting shell to enter the connecting shell through the air inlet 241 of the panel 24, and the air inlet side of the blower faces the air inlet 241 of the panel 24, the air outlet side of the blower faces the air holes 271 of the container 27, and therefore the blower can blow air into the container 27 more smoothly. Can dismantle in the container 27 and be provided with champignon box 28, place the champignon in the champignon box 28, this champignon can be solid-state pure plant champignon or champignon gel, and above-mentioned champignon all can be bought through the market and obtain, no longer gives details here. The side of the fragrance box 28 facing the air holes 271 and the end face facing the top of the container 27 are both provided with volatilization ports (not shown in the figure) for fragrance volatilization, and the volatilization ports of the fragrance box 28 are communicated with the top of the container 27. Because the top of container 27 is the opening setting, the user can get through the top of container 27 and put champignon box 28, and container 27 top is linked together with the air-out side of connecting casing 21 simultaneously to fragrance in the champignon box 28 can be dispersed through volatilizing the mouth and the top of container 27 fast.
In other embodiments, the diffuser 23 may be a fan heater or an electric wand. When the diffuser 23 is a fan heater, the blowing side of the fan heater is also the air hole 271 facing the container 27, and meanwhile, the fan heater can increase the volatilization efficiency of the aroma by increasing the temperature in the cavity 213.
Referring to fig. 5, champignon unit 2 is including the champignon determine module that is used for detecting the champignon kind, and champignon determine module installs in container 27, and champignon determine module is including the sub-contact and the female contact of mutual contact complex, and the quantity of sub-contact is provided with a plurality ofly, and a plurality of sub-contacts set up in the outer bottom of champignon box 28, and the quantity of female contact is provided with a plurality ofly, and a plurality of female contacts are installed in the interior bottom of container 27. The female contact is a normally open button, and the female contact is electrically connected with the sub-control module 22. The sub-contacts are hard bumps, such as: the sub-contacts can be protrusions made of metal materials and can also be protrusions made of hard plastic materials. When the fragrance box 28 is placed in the container 27, the sub-contact presses the female contact, which is equivalent to the sub-contact pressing the button, and the sub-control module 22 identifies the kind of fragrance in the fragrance box 28 according to the pressed female contact.
It is worth noting that, with reference to fig. 5 and 7, the sub-contacts at the bottom of each fragrance box 28 have corresponding numbers, and the plurality of mother contacts also have corresponding numbers, for example: the four female contacts at the bottom of the interior of the container 27 are respectively a female contact 41 numbered 0, a female contact 42 numbered 1, a female contact 43 numbered 2 and a female contact 44 numbered 3, and the sub-contacts at the bottom of the fragrance box 28 are respectively a sub-contact 31 numbered 0, a sub-contact 32 numbered 1, a sub-contact 33 numbered 2 and a sub-contact 34 numbered 3. The sub-contact 31 numbered 0 corresponds to the position of the mother contact 41 numbered 0, and the sub-contact 31 numbered 0 corresponds to the mother contact 41 numbered 0. The child contact 32 numbered 1 corresponds to the position of the mother contact 42 numbered 1, and the child contact 32 numbered 1 corresponds to the mother contact 42 numbered 1, and so on.
In one embodiment: the number of sub-contacts for each fragrance cartridge 28 is different to identify different fragrance types. Specifically, the method comprises the following steps: for example:
as shown in fig. 5 and 8, when the number of the sub-contacts at the bottom of the aroma box 28 is two, the two sub-contacts are the sub-contact 31 with the number of 0 and the sub-contact 34 with the number of 3, respectively, it indicates that the tea tree aroma is contained in the aroma box 28. The number of the female contacts is four, and the female contacts are respectively a female contact 41 with the number of 0, a female contact 42 with the number of 1, a female contact 43 with the number of 2 and a female contact 44 with the number of 3, when tea tree aroma is contained in the current aroma box 28, two sub-contacts at the bottom of the aroma box 28 need to be correspondingly extruded to form the female contact 41 with the number of 0 and the female contact 44 with the number of 3 one by one, and at the moment, the sub-control module 22 identifies aroma type information.
In another embodiment: as shown in fig. 5 and 9, when the number of the sub-contacts at the bottom of the fragrance box 28 is three, the three sub-contacts are respectively the sub-contact 31 numbered 0, the sub-contact 33 numbered 2 and the sub-contact 34 numbered 3, which indicate that the fragrance box 28 is filled with lavender fragrance. The number of the female contacts is four, and the four female contacts are respectively the female contact 41 numbered 0, the female contact 42 numbered 1, the female contact 43 numbered 2 and the female contact 44 numbered 3, when lavender fragrance is contained in the current fragrance box 28, the three sub-contacts at the bottom of the fragrance box 28 need to be correspondingly extruded one by one to form the female contact 41 numbered 0, the female contact 43 numbered 2 and the female contact 44 numbered 3, at the moment, the sub-control module 22 identifies lavender fragrance information, when the sub-control module 22 is electrically connected with the main control module 1, the sub-control module 22 sends the lavender fragrance information to the main control module 1, and the main control module 1 reads and stores the lavender fragrance information.
In another embodiment, as shown in fig. 10, when the number of the sub-contacts at the bottom of the fragrance box 28 is three, the number of the female contacts is four, which are respectively the female contact 41 numbered 0, the female contact 42 numbered 1, the female contact 43 numbered 2 and the female contact 44 numbered 3. The bottom of the aroma box 28 is provided with three sub-contacts, and the three sub-contacts at the bottom of the aroma box 28 are respectively a sub-contact 31 with the number of 0, a sub-contact 32 with the number of 1 and a sub-contact 34 with the number of 3, which indicates that bergamot aroma is filled in the aroma box 28. When being equipped with the bergamot champignon in the current champignon box 28, need extrude the female contact 41 that the serial number is 0 with the three subcontact one-to-one of champignon box 28 bottom, the female contact 42 that the serial number is 1 and the female contact 44 that the serial number is 3, the kind information of the champignon of bergamot is discerned to sub-accuse module 22 this moment, when this sub-accuse module 22 and host system 1 electric connection, sub-accuse module 22 sends bergamot champignon information for host system 1, host system 1 reads and stores the information of bergamot champignon.
It should be understood that the number of projections and the number of buttons may be expanded to be plural in other embodiments. The plurality of buttons in each fragrance unit 2 are electrically connected with the sub-control module 22. Since the sub-control module 22 pre-stores the variety information of various fragrances, when the protrusion of the fragrance box 28 presses the corresponding button, the sub-control module 22 can identify the variety information of the fragrances in the fragrance box 28, and can send the variety information of the fragrances in the fragrance box 28 to the main control module 1.
In other embodiments, the aroma detection component includes an electronic tag, a reader and a data processor, the electronic tag is correspondingly disposed at the bottom of the aroma box, different electronic tags record aroma types and aroma ID (identity document) information in the corresponding aroma box, when the aroma box 28 is installed in the container 27, the reader is used for reading the electronic tag information of the aroma box 28, the data processor is in communication connection with the main control module 1, the data processor is used for transmitting the information read by the reader to the sub-control module 22 associated with the aroma box 28, and since the sub-control module 22 pre-stores therein the type information of multiple aromas, at this time, the sub-control module 22 identifies the aroma types and aroma ID information in the aroma box 28. The sub-control module 22 sends the kind information of the champignon to the main control module 1 for storage.
The housing of the main control module 1 may also be provided with a liquid crystal display (not shown) or an LED display screen (not shown), and the liquid crystal display or the LED display screen is electrically connected to the main control module 1. When the aromatherapy unit 2 with aromatherapy is electrically connected with the main control module 1, the sub-control module 22 sends the aromatherapy type information to the main control module 1, so that the liquid crystal display or the LED display of the main control module 1 can display the aromatherapy expansion mode. In addition, the liquid crystal display screen or the LED display screen of the main control module 1 can be used for the user to select the fragrance expansion mode.
Still be provided with the pressure sensor who is used for detecting champignon weight in the container 27, every pressure sensor all is provided with solitary serial number in order to correspond different kinds of champignon, corresponds the pressure sensor that serial number is 0 like the lavender champignon, and the bergamot champignon corresponds the pressure sensor that serial number is 1. The pressure sensor of each aromatherapy unit 2 is electrically connected with the sub-control module 22. The pressure sensor can detect the weight of the associated aroma and obtain a pressure signal of the aroma, and then the pressure sensor transmits the pressure signal to the sub-control module 22, so that the sub-control module 22 obtains the residual information of the target aroma, namely obtains the residual amount of the target aroma. Meanwhile, the sub-control module 22 generates a target aroma residual signal and sends the target aroma residual signal to the main control module 1, and the main control module 1 reads the target aroma residual signal and controls the liquid crystal display or the LED display to display the target aroma residual information.
In other embodiments, a warning light (not shown) is disposed on an outer side wall of the connection housing 21, the warning light may be an LED light, or may be another small bulb capable of flashing, and the warning light is electrically connected to the sub-control module 22. When the sub-control module 22 reads the pressure signal and determines that the target fragrance surplus is insufficient, the sub-control module 22 generates a target fragrance surplus insufficiency signal and sends the target fragrance surplus insufficiency signal to the main control module 1, and the main control module 1 reads the target fragrance surplus insufficiency signal and controls the liquid crystal display screen or the LED display screen to display the target fragrance surplus insufficiency information; meanwhile, the sub-control module 22 controls the warning lamp to flash to remind the user that the target fragrance is insufficient in surplus.
In one of them implementation, intelligent terminal equipment can supply the user-defined fragrant mode that expands, and is specific: the user determines the fragrance expansion mode by selecting the fragrance mode and the volatilization rate of the fragrance at the intelligent terminal device, such as: and the user selects the fragrance mode as an excitation mode through the intelligent terminal, and when the volatilization rate of the aroma is set to be the high volatilization rate, the intelligent terminal equipment determines the fragrance expansion mode as the high volatilization rate excitation mode. After the main control module 1 receives the information of the fragrance expansion mode sent by the intelligent terminal device, the main control module 1 reads the fragrance mode and the volatilization rate of the fragrance associated with the fragrance mode from the information of the fragrance expansion mode, and controls the sub-control module 22 associated with the fragrance mode to work based on the read fragrance mode and the volatilization rate of the associated fragrance, so that the sub-control module 22 controls the fragrance expander 23 to work, and the fragrance in the fragrance unit 2 is volatilized according to the fragrance expansion mode.
The embodiment of the application also discloses an aroma diffusion control method which is realized based on the aroma device 10 of the scheme. Specifically, after the user selects the fragrance mode, the fragrance diffusion control method can adjust the volatilization rate of the fragrance in different fragrance units 2 according to the environment temperature and humidity in the target space, so as to meet the individual demands of the user on the fragrance. The aroma diffusion control method of the aromatherapy, as shown in fig. 11, includes:
and S1, determining the fragrance spreading mode. The fragrance expansion mode comprises a fragrance mode. The aroma mode comprises an excitation mode (matching bergamot aroma and tea plant aroma), a relaxation mode (matching bergamot aroma and lavender aroma), and a deodorization mode (tea plant aroma). Meanwhile, based on the influence of the environmental temperature and humidity in the target space, the fragrance expansion mode further comprises the volatilization rate of the fragrance in different fragrance modes. Thus, the fragrance spreading mode may be: a slow mode with high volatilization rate, a slow mode with low volatilization rate, a slow mode with normal volatilization rate, an excitation mode with high volatilization rate, an excitation mode with low volatilization rate, an excitation mode with normal volatilization rate, a deodorization mode with high volatilization rate, a deodorization mode with low volatilization rate or a deodorization mode with normal volatilization rate. It should be noted that the fragrance expansion mode can also be a user-defined mode, and the user-defined mode refers to that the user can set the fragrance type and the volatilization rate of fragrance in the fragrance mode according to the user's own needs. For step S1, the method specifically includes: and S11, receiving the fragrance mode. Specifically, the fragrance mode selected by the user is received to determine the target fragrance type information. For example: when the user selects the relieving mode, the type of the target aroma is determined to be the matching of bergamot aroma and lavender aroma. The steps of the aroma diffusion control method are described below by taking the user selecting the relaxing mode as an example, and other aroma modes are not described again.
S12, acquiring temperature and humidity information in the target space in real time, comparing the temperature and humidity information with reference temperature and humidity information and obtaining a temperature and humidity comparison result, wherein the temperature and humidity comparison result comprises the following steps:
s121, acquiring temperature information and humidity information in a target space in real time, specifically: and when the temperature information is compared with the reference temperature information to obtain high temperature and humidity and the humidity information is compared with the reference humidity information to obtain high temperature and humidity comparison results. When the temperature information is compared with the reference temperature information to be low temperature and the humidity information is compared with the reference humidity information to be dry, the obtained temperature and humidity comparison result is low-temperature drying.
For step S121, further comprising: when the temperature information is compared with the reference temperature information to be high temperature and the humidity information is compared with the reference humidity information to be dry, the obtained temperature and humidity comparison result is high-temperature drying. And when the temperature information is compared with the reference temperature information to obtain high temperature and normal humidity, and the humidity information is compared with the reference humidity information to obtain a temperature and humidity comparison result.
When the temperature information is compared with the reference temperature information to be low temperature and the humidity information is compared with the reference humidity information to be normal humidity, the temperature and humidity comparison result is obtained to be low temperature and normal humidity. When the temperature information is compared with the reference temperature information to be low temperature and the humidity information is compared with the reference humidity information to be damp, the obtained temperature and humidity comparison result is low-temperature damp.
And when the comparison between the temperature information and the reference temperature information is normal temperature and the comparison between the humidity information and the reference humidity information is normal humidity, obtaining a temperature and humidity comparison result which is normal temperature and normal humidity. And when the comparison between the temperature information and the reference temperature information is normal temperature and the comparison between the humidity information and the reference humidity information is humid, obtaining a temperature and humidity comparison result which is normal temperature and humid. And when the temperature information is compared with the reference temperature information to be normal temperature and the humidity information is compared with the reference humidity information to be dry, obtaining a temperature and humidity comparison result which is normal temperature drying.
More specifically, it is assumed that the range of the reference humidity information (i.e., the reference air humidity information) is 50% -65%. When the humidity information acquired in real time is higher than 65%, the humidity condition is considered; when the humidity information acquired in real time is lower than 50%, the drying condition is satisfied. When the humidity information acquired in real time is 50% -65%, the humidity information belongs to the normal humidity condition.
The range of the reference temperature information (namely the reference air temperature information) is 20-30 ℃, and when the real-time acquired temperature information is 32 ℃, the acquired temperature information is higher than 30 ℃, which belongs to the high-temperature condition; when the temperature information acquired in real time is 15 ℃, the acquired temperature information is lower than 20 ℃, which is the case of low temperature. When the temperature information obtained in real time is within the range of 20 ℃ to 30 ℃ (such as the temperature information obtained in real time is 25 ℃), the method belongs to the case of normal temperature.
For example: when the real-time acquired temperature information is 35 ℃, the temperature information is compared with the reference temperature information to be high temperature, and the real-time acquired humidity information is 80%, the humidity information is compared with the reference humidity information to be damp, and the obtained temperature and humidity comparison result is high temperature and damp. When the real-time acquired temperature information is 15 ℃, the temperature information is compared with the reference temperature information to be low temperature, the real-time acquired humidity information is 40%, the humidity information is compared with the reference humidity information to be dry, and the obtained temperature and humidity comparison result is low-temperature drying. When the temperature information acquired in real time is 25 ℃, the temperature information is compared with the reference temperature information to be normal temperature, and the humidity information acquired in real time is 65%, the humidity information is compared with the reference humidity information to be normal humidity, and the temperature and humidity comparison result is obtained to be normal temperature and normal humidity. When the temperature information acquired in real time is 25 ℃, the temperature information is compared with the reference temperature information to be normal temperature, and the humidity information acquired in real time is 80%, the humidity information is compared with the reference humidity information to be damp, and the temperature and humidity comparison result is obtained to be normal temperature and damp.
S122, determining a fragrance expansion mode based on the temperature and humidity comparison result, specifically:
when the temperature and humidity comparison result is high temperature and humidity, the fragrance expansion mode is a low-volatilization relaxing mode. In the space environment with higher temperature, the diffusion rate of the target aromatherapy is higher, and when the humidity is higher, the molecules in the target aromatherapy stay longer in the air, so that the demand of the fragrance diffusion effect can be met by adopting a low-volatilization fragrance diffusion mode.
And when the temperature and humidity comparison result is low-temperature drying, the fragrance expanding mode is a high-volatility relaxing mode. In the lower space environment of temperature, the rate of target champignon diffusion is less, and when in the drier space, the molecule among the target champignon dwell time in the air is shorter, from this need highly volatilize and expand fragrant mode and just can satisfy the demand of fragrance diffusion effect.
When the temperature and humidity comparison result is normal temperature and normal humidity, the fragrance expanding mode is a normal relaxing mode.
S2, determining target aroma information based on the aroma diffusion mode, wherein the target aroma information comprises the type and the volatilization rate of the target aroma.
Specifically, in the relaxing mode, the category of the target scent refers to the category of the fragrance emitted by the target scent, which includes: bergamot aroma and lavender aroma. And when the fragrance expansion mode is a high volatilization relieving mode, determining the volatilization rate of the target fragrance to be a high volatilization rate. And when the fragrance expansion mode is the low volatilization relieving mode, determining the volatilization rate of the target fragrance to be the low volatilization rate. And when the fragrance expansion mode is the normal relaxing mode, determining the volatilization rate of the target fragrance to be the normal volatilization rate.
S3, controlling the fragrance volatilization rate of the fragrance unit 2 related to the type of the target fragrance based on the target fragrance information. Specifically, the method comprises the following steps: when the fragrance diffuser 23 is a blower, the specific steps of controlling the volatilization rate of fragrance in the fragrance unit 2 associated with the kind of target fragrance based on the target fragrance information include: when the volatilization rate of the target aromatherapy is high volatilization rate, the blowing power of the blower in the aromatherapy unit 2 corresponding to the type of the target aromatherapy is controlled to be high-power blowing.
Table 1 lists the types of partial fragrance modes, and table 2 lists the comparison results of partial environmental temperature and humidity and the related volatilization rate, the output power of the blower and the output power of the fan heater of the target fragrance. It should be understood that tables 1 and 2 do not imply any limitations on fragrance patterns, ambient temperature and humidity comparison results, target fragrance volatilization rates, blower output power, and blower output power.
Table 1 fragrance type and output power in various fragrance modes.
Table 2 influence of ambient temperature and humidity on the aroma volatilization efficiency (i.e. output power).
The following describes the fragrance spreading when the diffuser is a blower, with reference to tables 1-2.
For example: when the needed fragrance mode is a relaxing mode, the target aromatherapy is bergamot aromatherapy and lavender aromatherapy. When the comparison result of the ambient temperature and humidity is low-temperature drying, the volatilization rate of the target aromatherapy is a high volatilization rate, the main control module 1 sends a related control signal to the sub-control module 22 corresponding to the aromatherapy unit 2 provided with the bergamot aromatherapy, the sub-control module 22 responds to the control signal and controls the blower in the aromatherapy unit 2 associated with the bergamot aromatherapy to be started, controls the current working power of the blower to be 80% and preset output power, and controls the current working power of the blower to be 80% and 2W to be 1.6W; meanwhile, the main control module 1 sends a related control signal to the sub-control module 22 corresponding to the aromatherapy unit 2 with the lavender aromatherapy, and the sub-control module 22 responds to the control signal and controls the blower in the aromatherapy unit 2 associated with the lavender aromatherapy to start, and controls the current working power of the blower to be 80% and preset output power, so that the current working power of the blower to be 80% and 3W to be 2.4W.
The fragrance of adopting the bergamot champignon cooperates with the fragrance of lavender champignon, the combination forms the fragrance collocation of the mode of releiving, can satisfy the demand that the user needs the fragrance of mode of releiving, and simultaneously, according to the dry environment of low temperature in the target space, the rate of volatilization that needs the target champignon is high volatilization rate from this, from this control hair-dryer bloies with 1.6W's power to the bergamot champignon, realize diffusion bergamot fragrance with this, simultaneously control the hair-dryer expands fragrant with 2.4W's power to the lavender champignon, make the fragrance of target champignon take the fragrance of lavender champignon as the main, the fragrance of adding the bergamot champignon carries out supplementary mixing simultaneously, strengthen the effect of releiving of fragrance to the human body on the one hand, on the other hand, adjust the power of hair-dryer according to the.
When the volatilization rate of the target aromatherapy is a low volatilization rate, the blowing power of the blower in the aromatherapy unit 2 corresponding to the kind of the target aromatherapy is controlled to be low power. For example:
when the required fragrance mode is a relaxing mode and the volatilization rate of the target aromatherapy is a low volatilization rate, the main control module 1 sends a related control signal to a sub-control module 22 corresponding to the aromatherapy unit 2 provided with the bergamot aromatherapy, the sub-control module 22 responds to the control signal and controls a blower in the aromatherapy unit 2 associated with the bergamot aromatherapy to start, controls the current working power of the blower to be 20% and preset output power, and controls the current working power of the blower to be 20% and 2W to be 0.4W; meanwhile, the main control module 1 sends a related control signal to the sub-control module 22 corresponding to the aromatherapy unit 2 with the lavender aromatherapy, and the sub-control module 22 responds to the control signal and controls the blower in the aromatherapy unit 2 associated with the lavender aromatherapy to start, and controls the current working power of the blower to be 20% and preset output power, so that the current working power of the blower to be 20% and 3W is 0.6W.
According to the moist environment of high temperature in the target space, the rate of volatilizing that from this needs the target champignon is low rate of volatilizing, from this control hair-dryer expands fragrant with 0.4W's power to the bergamot champignon, control the hair-dryer simultaneously and expand fragrant with 0.6W's power to the lavender champignon, strengthen the effect of releiving of fragrance to the human body on the one hand, on the other hand, adjust the power of hair-dryer according to the moist environment of high temperature, make the fragrance of target champignon also can reach the volatile effect under the moist environment of normal atmospheric temperature under the moist environment of high temperature, simultaneously, for the operating power of hair-dryer under the low temperature drying environment, adopt the miniwatt to blow the operating power who is more favorable to saving the hair-dryer in the.
When the volatilization rate of the target aromatherapy is the normal volatilization rate, the blowing power of the blower in the aromatherapy unit 2 corresponding to the type of the target aromatherapy is controlled to be the normal power to blow.
For example: when the required fragrance mode is a relaxing mode, the volatilization rate of the target aromatherapy is a normal volatilization rate, the main control module 1 sends a related control signal to a sub-control module 22 corresponding to the aromatherapy unit 2 provided with the bergamot aromatherapy, the sub-control module 22 responds to the control signal and controls a blower in the aromatherapy unit 2 associated with the bergamot aromatherapy to be started, and controls the current working power of the blower to be 40% and preset output power, and then the current working power of the blower to be 40% and 2W to be 0.8W; meanwhile, the main control module 1 sends a related control signal to the sub-control module 22 corresponding to the aromatherapy unit 2 with the lavender aromatherapy, and the sub-control module 22 responds to the control signal and controls the blower in the aromatherapy unit 2 associated with the lavender aromatherapy to start, and controls the current working power of the blower to be 40% and preset output power, so that the current working power of the blower to be 40% and 3W to be 1.2W. Control hair-dryer expands fragrant with 0.8W's power to the bergamot champignon, controls the hair-dryer simultaneously and expands fragrant with 1.2W's power to the lavender champignon for the fragrance of target champignon mixes with the fragrance of bergamot champignon and lavender champignon, can realize the effect of releiving of fragrance to the human body.
In other embodiments, the difference from the above embodiments is that: when the fragrance diffuser 23 is a fan heater, the specific steps of controlling the volatilization rate of fragrance in the fragrance unit 2 associated with the type of the target fragrance based on the target fragrance information include: based on the target aromatherapy information, controlling the aromatherapy volatilization rate in the aromatherapy unit 2 corresponding to the type of the target aromatherapy, comprising: when the volatilization rate of the target aromatherapy is a high volatilization rate, the heating power of the fan heater in the aromatherapy unit 2 corresponding to the type of the target aromatherapy is controlled to be high-power air blowing.
For example: when the volatilization rate of the target aromatherapy is high volatilization rate and the fragrance mode is a relaxing mode, and the type of the required target aromatherapy is bergamot aromatherapy and lavender aromatherapy, the main control module 1 sends a related control signal to a sub-control module 22 corresponding to the aromatherapy unit 2 with bergamot aromatherapy, the sub-control module 22 responds to the control signal and controls the fan heater in the aromatherapy unit 2 associated with the bergamot aromatherapy to start, controls the current working power of the fan heater to be 60% and preset output power, and controls the current working power of the fan heater to be 60% and 4W to be 2.4W; meanwhile, the main control module 1 sends a related control signal to the sub-control module 22 corresponding to the aromatherapy unit 2 with lavender aromatherapy, and the sub-control module 22 responds to the control signal and controls the fan heater in the aromatherapy unit 2 associated with lavender aromatherapy to start, and controls the current working power of the fan heater to be 60% and preset output power, so that the current working power of the fan heater to be 60% and 6W to be 3.6W. The fragrance that adopts the bergamot champignon cooperates with the fragrance of lavender champignon, the fragrance collocation of the mode of releiving is formed in the combination, can satisfy the demand that the user needs the fragrance of mode of releiving, simultaneously, according to the interior low temperature dry environment of target space, the rate of volatilization that from this needs the target champignon is high rate of volatilization, from this control electric fan heater expands fragrant with 2.4W's power to the bergamot champignon, the while control electric fan heater expands fragrant with the power of 3.6W to the lavender champignon.
When the volatilization rate of the target aromatherapy is a low volatilization rate, the heating power of the fan heater in the aromatherapy unit 2 corresponding to the type of the target aromatherapy is controlled to be low power for blowing.
For example: when the volatilization rate of the target aroma is low, and the fragrance in a relaxing mode is needed, namely: when the variety of the target aromatherapy is that bergamot aromatherapy and lavender aromatherapy are mixed, the main control module 1 sends related control signals to the sub-control module 22 corresponding to the aromatherapy unit 2 with bergamot aromatherapy, the sub-control module 22 responds to the control signals and controls the fan heater in the aromatherapy unit 2 associated with bergamot aromatherapy to be started, controls the current working power of the fan heater to be 10% and preset output power, and controls the current working power of the fan heater to be 10% and 4W to be 0.4W; meanwhile, the main control module 1 sends a related control signal to the sub-control module 22 corresponding to the aromatherapy unit 2 with lavender aromatherapy, and the sub-control module 22 responds to the control signal and controls the fan heater in the aromatherapy unit 2 associated with lavender aromatherapy to start, and controls the current operating power of the fan heater to be 10% by preset output power, so that the current operating power of the fan heater to be 10% by 6W to be 0.6W. The fragrance of adopting the bergamot champignon cooperates with the fragrance of lavender champignon, the fragrance collocation of the mode of releiving is formed in the combination, can satisfy the demand that the user needs the fragrance of mode of releiving, simultaneously, adjust the power of electric fan heater according to the moist environment of high temperature in the target space, make the fragrance of target champignon also can reach the volatile effect under the wet environment of normal atmospheric temperature under the high temperature humid environment, simultaneously, for the operating power of electric fan heater under the low temperature dry environment, adopt the miniwatt to expand fragrant more to be favorable to saving the operating power of electric fan heater under the wet environment of high temperature.
When the volatilization rate of the target aromatherapy is the normal volatilization rate, controlling the blowing power of the fan heater in the aromatherapy unit 2 corresponding to the type of the target aromatherapy to be the normal power for blowing.
For example: when the volatilization rate of the target aromatherapy is the normal volatilization rate and the fragrance mode is the relaxing mode, and the type of the required target aromatherapy is the mixture of bergamot aromatherapy and lavender aromatherapy, controlling the fan heater in the aromatherapy unit 2 associated with the bergamot aromatherapy to be started, controlling the current working power of the fan heater to be 30% and preset output power, and controlling the current working power of the fan heater to be 30% and 4W to be 1.2W; and meanwhile, the fan heater in the aromatherapy unit 2 associated with the bergamot is controlled to start, and the current working power of the fan heater is controlled to be 30% of the preset output power, so that the current working power of the fan heater is controlled to be 30% of 6W of 1.8W. According to the environment that normal atmospheric temperature is wet in the target space, the rate of volatilization that from this needs the target champignon is normal rate of volatilization, and control electric fan heater from this expands fragrant with 1.2W's power to the bergamot champignon, and control electric fan heater expands fragrant with 1.8W's power to the lavender champignon simultaneously for the fragrance of target champignon mixes with the fragrance of bergamot champignon and lavender champignon, can realize the effect of releiving of fragrance to the human body.
Regarding step S1, in another embodiment, the difference from the above-described embodiment is: the steps of the fragrance diffusion control method are described by taking the environment temperature of 15 ℃ and the environment humidity of 35% as an example, and other fragrance diffusion modes are not described again.
Specifically, the method comprises the following steps: and receiving the information of the fragrance expansion mode. More specifically, the main control module 1 of the aroma device 10 is in communication connection with an intelligent terminal device (for example, a computer terminal, a mobile phone terminal or a vehicle-mounted terminal), when a user selects an excitation mode (aroma is tea tree aroma), the intelligent terminal device sends a signal to the main control module 1, meanwhile, the main control module 1 determines that the aroma expansion mode is the excitation mode with a high volatilization rate according to an environment temperature and humidity comparison result and the aroma mode selected by the user, and then the main control module 1 controls a sub-control module 22 associated with the tea tree aroma to work.
For example: when a user starts software (such as Keep software) of a motion mode by using a mobile phone end, the motion software synchronously starts a selection instruction of a fragrance mode in a linkage manner, at the moment, the mobile phone end reminds the user of selecting different types of fragrance modes, and when the user selects an excitation mode, the mobile phone terminal sends excitation mode information to the main control module 1 of the aromatherapy device 10, so that the main control module 1 determines that the fragrance expansion mode is excitation mode information with a high volatilization rate according to an environment temperature and humidity comparison result and the fragrance mode, and controls the associated sub-control module 22 to work.
Regarding step S1, in other embodiments, the difference from the above embodiments is: the user can also select a custom mode, specifically: the user can select a user-defined mode through the intelligent terminal device, the interface of the intelligent terminal device jumps to a selection interface of the target aroma type, and then the type of the target aroma and the volatilization rate of the target aroma are selected according to actual needs.
More specifically: the user selects the mixture of two kinds of champignon of bergamot champignon and tea tree champignon through the cell-phone end, and can select the volatilization rate of bergamot champignon through the cell-phone end: selecting the working power of a fan for blowing the bergamot aroma to be 70% and preset output power to be 70% and 5W to be 3.5W; then selecting the volatilization rate of the tea tree aroma through a mobile phone end: the working power of a fan used for blowing the tea tree aromatherapy is selected to be 20% and the preset output power is 20% and 5W is 1W. Then the main control module 1 sends a signal to the sub-control module 22 associated with bergamot aroma and tea tree aroma according to the aroma type selected by the user and the volatilization rate of the aroma to perform aroma expansion work.
It is worth to be noted that the effect of the blower and the fan heater on the aromatherapy is different: the temperature of the air blown by the blower is equal to the temperature of the environment, the temperature of the air blown by the warm air blower ranges from 35 ℃ to 40 ℃, and in the embodiment, the temperature of the air blown by the warm air blower is preferably 40 ℃.
In other embodiments, the aroma diffusion control method is different from the above embodiments in that: further comprising: and S4, measuring the residual amount of the target aroma and making a prompt. Specifically, the method comprises the following steps: and S41, acquiring the residual information of the target aromatherapy in real time. The pressure sensor of each fragrance unit 2 can detect the weight of the associated fragrance and obtain a pressure signal of the fragrance, and then transmit the pressure signal to the sub-control module 22, so that the sub-control module 22 obtains the residual information of the target fragrance, i.e. obtains the residual amount of the target fragrance.
And S42, comparing the residual information of the target aroma with the residual threshold of the associated aroma. Specifically, (1) a margin threshold of the associated aroma is preset. The margin threshold of the associated aroma may be a range value or a specific numerical value, and the user may preset the margin threshold of the associated aroma according to actual conditions.
Assuming that the margin threshold of the associated aroma is a range value, for example: the remaining amount threshold value of the associated scent is 5-10g, the remaining amount is normal when the remaining amount of the associated scent is greater than 10g, the remaining amount is insufficient when the remaining amount of the associated scent is in the range of 5-10g (the remaining amount is insufficient when the remaining amount of the associated scent is 5g or 10 g), and the remaining amount is abnormal when the remaining amount of the associated scent is less than 5 g.
Assuming that the margin threshold of the associated aroma is a specific value, for example: the remaining amount threshold of the associated scent is 5g, the remaining amount is normal when the remaining amount of the associated scent is greater than 5g, and the remaining amount is abnormal when the remaining amount of the associated scent is less than 5 g.
(2) The remaining amount of the target fragrance is compared to a remaining amount threshold of the associated fragrance.
For example: the target fragrance is lavender fragrance, the range of the margin threshold value of the preset lavender fragrance is 5g, the pressure sensor generates the remaining amount information of the lavender fragrance after detecting the remaining amount of the lavender fragrance, the pressure sensor sends the remaining amount information of the lavender fragrance to the sub-control module 22, and the sub-control module 22 compares the remaining amount information of the lavender fragrance with the margin threshold value of the lavender fragrance.
When the preset surplus threshold of the associated aroma is a specific numerical value, then:
s43-1, when the residual amount information of the target aroma is larger than the residual amount threshold value of the associated aroma, the sub-control module 22 sends the normal aroma residual amount information to the main control module 1, the main control module 1 receives and reads the normal aroma residual amount information, and the main control module 1 sends the normal aroma residual amount information to the display terminal (a liquid crystal display or an LED display screen of the aroma device 10). For example: the surplus of lavender fragrance is 12g, the surplus threshold value of preset lavender fragrance is 5g, the surplus of lavender fragrance is larger than the surplus threshold value of lavender fragrance, the sub-control module 22 sends the fragrance surplus normal information to the main control module 1, the main control module 1 receives and reads the fragrance surplus normal information, and then the main control module 1 sends the surplus normal information to the display terminal.
S43-2, when the residual amount information of the target aroma is smaller than the residual amount threshold value of the associated aroma, sending aroma residual amount abnormal information to the display terminal. For example: the surplus of lavender fragrance is 4g, the preset surplus threshold of the lavender fragrance is 5g, the surplus of the lavender fragrance is smaller than the surplus threshold of the lavender fragrance, the sub-control module 22 sends fragrance surplus abnormal information to the main control module 1, the main control module 1 receives and reads the fragrance surplus abnormal information, and then the main control module 1 sends the surplus abnormal information to the display terminal. In addition, the display terminal can display the fragrance residual amount in real time.
In other embodiments, when the preset margin threshold of the associated aroma is a range value, then:
s43-1, when the residual amount information of the target aroma is larger than the upper limit value of the residual amount threshold value of the associated aroma, sending aroma residual amount normal information to the display terminal. For example: the residual amount of the lavender aroma is 12g, the preset residual amount threshold value of the lavender aroma is 5-10g, at the moment, the lower limit value of the residual amount threshold value of the lavender aroma is 5g, and the upper limit value of the residual amount threshold value of the lavender aroma is 10 g. The residual amount of the lavender aroma is larger than the upper limit value of the residual amount threshold value of the lavender aroma, the sub-control module 22 sends the normal aroma residual amount information to the main control module 1, the main control module 1 receives and reads the normal aroma residual amount information, and then the main control module 1 sends the normal residual amount information to the display terminal.
S43-2, when the residual amount information of the target aroma is smaller than the lower limit value of the residual amount threshold value of the associated aroma, sending aroma residual amount abnormal information to the display terminal. For example: the residual amount of the lavender aroma is 4g, and the preset residual amount threshold value of the lavender aroma is 5-10g, so that the lower limit value of the residual amount threshold value of the lavender aroma is 5g, and the upper limit value of the residual amount threshold value of the lavender aroma is 10 g. At this time, the remaining amount of the lavender fragrance is smaller than the lower limit value of the remaining amount threshold of the lavender fragrance, the sub-control module 22 sends fragrance remaining amount abnormal information to the main control module 1, the main control module 1 receives and reads the fragrance remaining amount abnormal information, and then the main control module 1 sends the remaining amount abnormal information to the display terminal.
And S43-3, when the residual amount information of the target aroma is within the residual amount threshold range of the associated aroma, sending aroma residual amount shortage information to the display terminal. For example: the residual amount of the lavender aroma is 8g, the preset residual amount threshold value of the lavender aroma is 5-10g, the residual amount of the lavender aroma is within the range of the residual amount threshold value of the lavender aroma, the sub-control module 22 sends insufficient aroma residual amount information to the main control module 1, the main control module 1 receives and reads the insufficient aroma residual amount information, and then the main control module 1 sends abnormal residual amount information to the display terminal. In addition, the display terminal can display the lavender fragrance allowance in real time.
In other embodiments, when the remaining amount of the target fragrance is insufficient or abnormal, the sub-control module 22 blinks the warning lamp to remind the user to replenish the target fragrance.
It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.
The embodiment also discloses an electronic device, which includes a memory, a processor, and a computer program stored in the memory and capable of running on the processor, wherein the processor implements the following steps when executing the computer program: and S1, determining the fragrance spreading mode. S2, determining target aroma information based on the aroma diffusion mode, wherein the target aroma information comprises the type and the volatilization rate of the target aroma. S3, controlling the fragrance volatilization rate of the fragrance unit 2 related to the type of the target fragrance based on the target fragrance information.
The processor, when executing the computer program, is also capable of executing the steps of any of the above embodiments with respect to the aroma diffusion control method.
The internal structure of the electronic device may be as shown in fig. 12. The electronic device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the electronic device is configured to provide computing and control capabilities. The memory of the electronic equipment comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the nonvolatile storage medium is used for storing the fragrance type, the fragrance allowance and the fragrance expansion mode. The network interface of the electronic device is used for connecting and communicating with an external terminal through a network. The computer program is executed by a processor to realize the fragrance diffusion control method.
The embodiment of the application also discloses a computer readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the following steps are realized: and S1, determining the fragrance spreading mode. S2, determining target aroma information based on the aroma diffusion mode, wherein the target aroma information comprises the type and the volatilization rate of the target aroma. S3, controlling the fragrance volatilization rate of the fragrance unit 2 related to the type of the target fragrance based on the target fragrance information.
The processor, when executing the computer program, is also capable of executing the steps of any of the above embodiments with respect to the aroma diffusion control method.
It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware related to instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, the computer program can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).
It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules, so as to perform all or part of the functions described above.
The embodiment of the application also discloses an aromatherapy machine, which can be applied to a vehicle or a space such as an office, a living room, a bedroom, a study and the like as shown in fig. 13. The champignon machine includes: temperature detection device 50: the system is used for acquiring temperature information in a target space in real time; humidity detection device 60: the humidity information acquisition module is used for acquiring humidity information in a target space in real time; and the aromatherapy device 10 as above. The aromatherapy device 10 is connected to a temperature detection device 50 and a humidity detection device 60, respectively. The fragrance device 10 can implement the steps of any of the above embodiments regarding the fragrance diffusion control method.
Specifically, the temperature detection device 50 adopts a temperature sensor, and the temperature sensor is in communication connection with the main control module 1 in the aromatherapy device 10. The humidity detection device 60 adopts a humidity sensor, and the humidity sensor is in communication connection with the main control module 1 in the aromatherapy device 10.
In another embodiment, the fragrance machine may further comprise a display terminal 70, and the fragrance device 10 is connected with the display terminal 70. The display terminal 70 is used for displaying the fragrance expansion mode and the normal, abnormal or insufficient information of the fragrance surplus. The display terminal 70 may be a liquid crystal display or an LED display of the aromatherapy device 10, or may be other hardware capable of displaying the normal, abnormal or insufficient information of the fragrance expansion mode and the aromatherapy residual amount, and the display terminal 70 may provide the user with the fragrance expansion mode selection, and may display the current fragrance expansion mode, the fragrance residual amount and the normal/abnormal/insufficient information of the aromatherapy residual amount at the same time.
In conclusion, the user selects the fragrance mode through the display terminal 70 or the intelligent terminal device (such as a mobile phone end and a vehicle-mounted end), and the fragrance device 10 mixes and expands fragrance to different fragrances on the next step, and the fragrance machine detects the environmental temperature and humidity in the current target space through the temperature detection device 50 and the humidity detection device 60 to adjust the volatilization rate of fragrance, so that the fragrance can reach better volatilization effect, and the promotion plays a better relieving or exciting role for the user.
The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.
Claims (10)
1. The utility model provides an aromatherapy device, its characterized in that includes host system (1) and a plurality of aromatherapy unit (2), every aromatherapy unit (2) all are equipped with and are used for cascaded connecting piece, every aromatherapy unit (2) pass through the connecting piece with host system (1) detachable electricity is connected.
2. The aromatherapy device according to claim 1, wherein the aromatherapy unit (2) comprises a connection housing (21), a sub-control module (22) and a fragrance diffuser (23) for driving aromatherapy to volatilize, the main control module (1) is connected with the sub-control module (22), the sub-control module (22) is detachably and electrically connected with the main control module (1) through the connecting piece, the fragrance diffuser (23) is electrically connected with the sub-control module (22), one end of the connecting shell (21) is provided with a containing cavity (213) for placing fragrance, the other side of the connecting shell (21) is provided with an air inlet end, the fragrance diffuser (23) is arranged between the accommodating cavity (213) and the air inlet end of the connecting shell (21), connect casing (21) and be provided with the air-out side, the air-out side with hold chamber (213) and be linked together.
3. The aromatherapy device according to claim 2, wherein the aromatherapy unit (2) further comprises a container (27) for placing aromatherapy, the container (27) is detachably mounted on the connection housing (21) through the accommodating cavity (213), an air hole (271) is formed in one side of the container (27) facing the diffuser (23), and the container (27) is communicated with an air outlet side of the connection housing (21).
4. The aromatherapy device according to claim 3, wherein the sub-control module (22) identifies the type of aromatherapy in the container (27) by an aromatherapy detection component, the aromatherapy detection component is installed in the container (27), and the aromatherapy detection component is electrically connected with the sub-control module (22).
5. An aroma diffusion control method based on the aroma device according to any one of claims 1 to 4, characterized by comprising the following steps:
determining a fragrance expansion mode;
determining target aroma information based on the aroma expansion mode, wherein the target aroma information comprises an aroma mode and a volatilization rate;
controlling the fragrance volatilization rate in the fragrance unit (2) associated with the type of the target fragrance based on the target fragrance information.
6. The fragrance diffusion control method according to claim 5, wherein the step of determining the fragrance diffusion mode comprises:
receiving a fragrance pattern;
acquiring temperature and humidity information in a target space in real time, comparing the temperature and humidity information with reference temperature and humidity information and obtaining a temperature and humidity comparison result;
and determining a fragrance expansion mode based on the temperature and humidity comparison result and the fragrance mode.
7. The fragrance diffusion control method according to claim 5, wherein the step of controlling the volatilization rate of fragrance in the fragrance unit (2) corresponding to the type of the target fragrance based on the target fragrance information comprises:
controlling the output power of a fragrance diffuser (23) in the fragrance unit (2) corresponding to the fragrance mode based on the volatilization rate of the target fragrance.
8. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which, when executed by a processor, implements the steps of the aroma diffusion control method according to any one of claims 5-7.
9. An electronic device, comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the aroma diffusion control method according to any one of claims 5-7 when executing the computer program.
10. An aromatherapy machine, comprising: -temperature detection means (50), humidity detection means (60) and aromatherapy device (10) according to any one of claims 1 to 5;
the aromatherapy device (10) is respectively connected with the temperature detection device (50) and the humidity detection device (60).
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